Apparatus for mining



7 Sheets-Sheet l C. F. OSGOQD APPARATUS FOR MININGr Filed Nov. 15, 1935 Feb. 2s, 1939.

7 Sheets-Sheet 2 LA@ Rm, E@ l@ MA@ gmmf@ Feb, 28, 1939. c. F. osGooD APPARATUS FOR MINING Filedl NOV.' l5, 1935 Feb. 28, 1939.

c. F. osGooD* 2,148,495

APPARATUS FOR MINING Filed NOV. 15, 1955 '7, Sheets-Sheet 3 BZW AWM,

Feb. 28, 1939. Q F. OSGOQD APPARATUS FOR MIING Filed Nov. 15, A 1935 '7 Sheets-Sheet 4 IIIAIIIIIIIII MF A@ A@ Am Af 01h@ o @m6 lllllfllqlll Feb. 28, 1939. c. F. osGooD APPARATUS FOR MINING 7 sheets-'sheet 5 Filed NOV. 15, 1935 /m/,ehl Ton B l I o. o fo. 5 F. .m R M C.

I 7 Shets-Sheet 6 Feb. 28, '1939. c. F. osGooD APPARATUS FOR MINING Filed Nov. 15, 1955 i ?atente Feb..28, l1 939 UNITED' STATES PATENffnOF-FICE? Sullivan Machinery Massachusetts Companyfa corporation of :Appnuonmvember 15,1935, serial Natopzs 4 claims. (ci. 26a-2s) This invention relates to improved apparatus for mining, and more'partloularly to an improved coal mining apparatus `for cutting anddislo'dging the coal in a coal seam.

An object of this inventionis vto provide'improved apparatus fortliefmining of. coalwhe`re by the coal is cutand dislodged fromaeoal; 'seam in an improved manner.' provide an improved cealg cutting kerfs in a j coal'fse'am and thereafter' ap plylns a powerful 'breelsinadwn 'Pressure .t0 the coal previously cut" to "brea the coal seam. -A further obie'ctgl'sreprends-an 'improved coal 'mining apparatus having kerf` cut' s in'the'jcoal seamjand` ting means for cutting kerf having associated with the krf slitting` means infr-Q mining apparatusfor proved means' i'orV applying fa'fpowerful breaking# down force to the coalpreviouslycutf'by the 'cute 1 4ting means.` A still further object lis to provide improved coall breaking m l eansjernbodied in thekerf cutter of the kerf Icutting jmeans whereby.;

when the kerf cutter is 'inserted in' the coal, `a

powerful coal breaking pressure may bc applied to the coal to dislodge the latter. Yet another object is to provide an'limproved kerf cutterhav-` ing embodied therein expansible means extending substantially along the portion of the kerf cutterl length of the cutting" for'applying a powerful coal-breaking-dcwn"pressure to the coal in planes perpendicular to the plane of the kerf to dislodge the coal. A further object is to pro will, however, hereinafter more fully appear.

In the accompanying'drawings there are shown for purposes of illustrationone form and several modiiications thereof which the invention may assume in practice. In these drawings- Fig. l1 is a plan view of a having embodied therein coal mining apparatus one illustrative form of the improved coal vdislodging means.

Fig. 2 is a side elevational view of the miningapparatus shown in Fig. i.

Fig. 3 is an enlarged vie W in longitudinal section taken substantially on line 3-3 of Fig. 1. Fig. 4 is an enlarged plan view of the improved cutter bar Lshown in Fig.- 1.

Fig. 5 is a side elevational view of the cutter bar shown in Fig. 4.

Fig 6 is an enlarged'cross 'sectional view taken online of Fig.'4.

Fig. '7 is an enlarged vie w in longitudinal section takenon line 1-1 of Fig. 4, showing the plungers extended.

' Fig.- 8is an enlarged fragmentary sectional view similar to' Fig."'1; showing va modified form of coal 8-''8of Fig."9.'-"- "i 9 'isaflviewsimllar to Fig.v 4', showing in plan] aficutt'er bar having f embodied therein the nrodifie'd'v forino'f coal' breaking -means shown in "-Fig. `1l) isa viewfsimilarito Fig. 9, showing in' plan-4 afcutterffbar` having embodied therein ga further nio'liedffo'rml of coal breaking means.-

- Fi'g'- 11 is afview in 'longitudinal section Staken g substantially o'nline"'l\iill of Flg'flOJw-v i 15 Fig.l 12 `is'"a-c ijo's`s sectionalview t ken on |2 7|21"f Figi :;-L.. Fig. '13 a'viewsimilar'to Fig. l2fshowing al still 'furtherfm'odied formof construction. Flg.'14vis"a diagrammatic view showing the hy'- draulic iluid'sv'stem".v i" Figs. 15 to"20,"inclusive. are diagrammatic views showing various methodsof lcutting and break` ing 'down the coalin a coal seam.

Fig. 21' isa-diagrammatic' view showing'the mining apparatus' in a mine with the cutter'bar in coal breaking position.

-In this illustrative construction the several forms of the improved coal breaking cutter bar are shown embodied in a coal miningapparatus of the universal cutter type, herein of the same general character as that disclosed in a copending application of one -Joseph F. Joy`, Ser. No. 20,826, filed May 10, 1935, although it will be evident 'that vtheimproved coal breaking means 3 may be embodied'in mining apparatus of various other types. The coal mining apparatus disclosed herein comprises a portable base I in the form of a truck frame 2 mounted on Wheelsv 3 adapted to run along a mine trackway 4 laid on the mine floor. As described in the above mentioned Joyapplicatiomthe truck frame 2 has mounted thereon-at its forward end a horizontal turntable 5 j our'naled for rotation about a verticalv axis with respectto the truck frame on afor- Wardly projecting horizontal frame portion 6 projecting in advance of the front truck wheels, the turntable axis being locatedon the -truck frame in advance of the front truck wheels. Pivotally mounted at 1 on the horizontal turntable 5 for vertical swinging movement with respect thereto is an elongated arm structurel! having mounted thereon at-itsforward extremity for rotation about anaxis extending longitudibreaking*nicanfsgv the View' being taken on line 5" une nally of the arm structure a revolving head 9 in 55` turn having pivotally mounted thereon to swing relative thereto about an` axis I at right angles to the head axis a cutter support II carrying a kerf cutter I2. The kerf cutter is in the form of an elongated plane cutter bar I3 of a conventional form having mountedfor circulation orbitally about its margin an endless cutter-bit-carrying cutter chain I4. Supported on the rearward portion of the swingable arm structure 8 is a motor I5 having its power shaft I8 extending longitudinally of the arm structure and connected through a coupling I1 to a longitudinal shaft I8 suitably journaled within the arm structure. with its axis in .coincidence with the revolving head axis. Keyed to the forward end of the shaft I8 is a bevel gear I8 which drives, through bevel gearing in a manner clearly described in the above mentioned copending application, a bevel gear connected to a shaft 2i. The shaft 2I is suitably journaled in the tiltable cutter support II and-has keyed thereto a chain sprocket 22 which engages and drives the endless cutter chain I4. The cutter bar I3 is mounted on a hanger 23 having an annular bearing portion 24 journaled on bearing sleeves supported by a cylindric bearing support 25 formed integral with the tiltable cutter support II so thatV the cutter bar may be swung relative to the support I I about the axis of the shaft 2i. The hanger frame is provided with a plurality of apertures 26 within which a slidable locking pin 21 is adapted to project to lock the bar hanger to the cutter support,

' the locking pin being guided on the cutter support and having suitable manual release means 23.` Supported within the truck frame is a motor driven pump 30 for supplying hydraulic pressure to hydraulic cylinders 3I, 3| for rotating the turntable 5, hydraulic cylinders 32 for vertically swinging the arm structure 8, hydraulic cylinders 33 for revolving the head 8, a hydraulic cylinder 34 for swinging the cutter support I I, a hydraulic lock 35 for the revolving head 9 and the hydraulic operating means for the truck drive control clutches and the truck wheel brake. Also mounted within the truck frame is motor driven means for driving the truck wheels to propel the apparatus along the mine trackway both during transport and the cutting operation. As the various hydraulic adjusting devices, the lock and clutch, the brake operating means and the truck wheel driving mechanism are clearly described in the copending application above referred to and do not per se enter into this invention, further detailed description of the speciilc structure and mode of operation thereof are herein considered unnecessary other than to state that the cutter bar I3 may be adjusted to cut kerfs at any desired location in the coal face and in either rib.

Now referring to the improved coal breaking means embodied in the kerf cutter I2 and the particular cutter bar structure, it will be noted that the cutter bar I3 comprises parallel top plates and parallel bottom plates 4I, the plates 40 and 4I being secured as by rivets 42 to barlike projections 43 formed integral with a longitudinally extending cylinder block 44, herein extending lengthwise of the cutter bar throughout v a substantial portion oi' its length. 'I'he tip end of the cutter bar is provided with curved top and bottom plates 45 likewise fixed to the cylinder block 44, and these plates 48, 4I and 45 cooperate with the bar portions 43 of the cylinder block to form a guideway 48 about the margin of the cutter bar within which the endless cutter chain I4 is guided. The cylinder block 44 is also provided with a guide portion 41 mounted in a longitudinal guideway 48 in the hanger 23, and an adjusting screw 49 is arranged between the cutter bar and hanger for adjusting the cutter bar along the hanger guideway so that the cutter chain may be tightened. As clearly shown in Figs. 4 to 7, inclusive. formed in the cylinder block 44 of the cutter bar is a series of cylinders 5I arranged with their axes perpendicular to the plane cf the cutter bar and each having reciprocably mounted therein a piston 52. Each of these pistons is provided with a cylindric plunger or ram-53 guided within a detachable head 54vsecured within the cylinder, and each cylinder head is provided with packing means 55 sealingly engaging the plunger periphery to prevent oil leakage, while interposed between each head and the piston and encircling the plunger within the cylinder bore is a coil spring 58 constantly urging each plunger toward its innermost retracted position. As shown in Fig. 7. the plungers of alternate pistons are oppositely disposed so that certain of the plungers act in one direction while the others act in the opposite direction. As illustrated, the plunger bores are arranged in the central longitudinal plane of the cutter bar midway between the sides of the bar with their axes perpendicular to the plane of the bar and so that the plungers act in planes perpendicular to the plane of the cutter bar. The pump is connected, in a manner to be later described, through a pipe 58 to a connection 59 on the-arm structure and through the connection 53 to a flexible tubing 88 extending through the arm structure along the axis of the revolving head and out through an opening 6I in the side of the revolving head to a connection 62 secured to the-'cutter bar. The connection 82 extends through a longitudinal slot 63 in the bar hanger so that the-cutter bar may be adjusted along its guideway relative to the hanger. The ilexible tubing is connected through the connection 82 to a passage 84 formed in the cutter bar in turn communicating with a longitudinal passage 85 formed in the wall of the cylinder block 44. The passage 85 is connected to the ends of the cylinder bores at the inner sides of the pistons 82 through passages 86. It will thus be seen that when hydraulic pressure 'is supplied through the pipe 58, connection 59, tubing 80, connection 62, passages 84, 65 and 68 to the cylinders, the plungers may be moved outwardly relative to the cutter bar as will later be described.

In the modied form of coal breaking k'rf cutter shown in Figs. 8 and 9, the cutter bar comprises parallel top and bottom plates 10 and 'II secured, as by riveting, to parallel longitudinally extending side bars 12, the plates cooperating with the side bars to form the guideway about the margin of the cutter bar within which the cutter chain is circulated. Arranged in the space between the side bars and top and bottom plates is a plurality of cylinder blocks 13 of rectangular form, each having oppositely disposed cylindrical portions 14 projecting through openings 15 formed in the top and bottom plates 10 and 1I respectively. Arranged between the top and bottom plates ofthe cutter bar and secured to the side bars 12 is an end cylinder block 16 likewise having oppositely projecting cylindrical portions 11 extending through bores 18 formed in the top and bottom plates. These cylinder blocks each have formed therein a cylinder bore containing coaxial, oppositely acting reciprof cable pistons and 8|; These pistons are provided th suitable packing 82 and have oppositely e tending plungers or rams 83 and 84 acting in planes perpendicular to the p lane oi the 'cutter bar substantially along the length of the cutting portion of the cutter bar. the plungers 83 extending through the detachable heads 85 of the cylinders. while the plungers 84 extend through the integral lower cylinder heads 86. 'I'hese cylinder heads each carry packing 81 sealingly engaging the plunger peripheries to prevent oil leakage. As shown in Fig. 8, the plungers are made hollow at 88 and connected between pins secured to the plungers 83 and 84 respectively, and arranged in the hollow portion oi the plungers is a coil tension spring 8| constantly urging the piungers toward their innermost collapsed position. In this construction, iiuidv pressure is conducted to the cylinder bores between the pistons through a passage 82 in the cutter bar communicating with a longitudinal passage 83 connected by a pipe 84 to the bore of the innermost cylinder. The bores of the two innermost cylinders vare connected together by a pipe 85, while similar pipes 86 and 81 connect the bores oi the other cylinder blocks together so that fluid pressure flows from one cylinder to another to act on the pistons therein.

In thermodiiled forms of construction shown in Figs. 10 to 13, inclusive, it will be noted that the cutter bar comprises parallel top' and bottom plates |00 and I 0I secured as by rivets I 02 to intermediate parallel blocks |03. Secured to the intermediate blocks |03 and cooperating with the top and bottom plates at the tip end of the bar are-arcuate top and bottom plates |04 and a separate end block |05, the plates |00, |0| and |04 cooperating with the blocks |03 .and |05 to form a guideway |06 about the margin of the cutter bar within which the endless cutter chain I4 circulates. The intermediate blocks |03 extend longitudinally in parallelism with the parallel sides of the cutter bar, substantially throughout the length of the cutting portion of the cutter bar, and have formedtherebetween an elongated longitudinal chamber I01 in which is'guided an elongated, relatively narrow plunger |08, this plunger extending outwardly through an elongated slot |09 formed in the top plate |00. Interposed between the plunger 08 and the bottom plate IUI is an expansible receptacle or breaker pad II 0, herein in the form of a re-enforced rubber bag. The plunger |08 is constantly urged towards its innermost retracted po-V sition by means of suitable springs Fluid under pressure is'adapted to be conducted to the expansible receptacle through a iiexible tubing I I2 connected to a block I|3. Arranged within the receptacle is a block ||4 secured to the block I3 so that the wall of the receptacle is tightly clamped between these two blocks. The tubing ||2 is connected through a passage ||5 formedin the blocks and receptacle communicating with the interior of the receptacle. In the modiication shown in Fig. 13 the parallel blocks |03 have reciprocably mounted within the chamber |01 therebetween, oppositely acting plungers ||6 and |I1 having interposed therebetween an expansible receptacle I I8 similar to the expansible receptacle above referred to. Springs IIS and |20 constantly urge the plungers toward their innermost retracted'positlon. Fluid under pressure is supplied to the receptacle I |8 in a manner similar to that clearly shown in Fig. 1l. It will thus be seen that the plunger |08 shown in Fig. 12

and the oppositely acting plungers 8. I1 shown in Fig.-13 extend longitudinally of the cutterbar within the orbit of the cutter chain and. act in planes perpendicular to the plane of the cutter bar along substantially the entire cutting portion oi' the latter.

' Now referring to the hydraulic system and associated control meansV shown in Fig. 14, it will be noted that the pump 30 is driven by a motor |25 (see Fig. l) which also drives the transmission mechanism for propelling the apparatus in a manner clearly described in lthe above mentioned Joy application, Serial No. 20,826. This pump 30 is arranged in a tank |28. adapted to contain a liquid, preferably oil, and the pump, submerged in the liquid, is adapted to supply hydraulic pressure to the various hydraulically operated devices of the apparatus. Arranged within the truck i'rame is a horizontal valve box |21 of a design similar to that described in the above mentioned copending application, and this valve box has formed therein a series oi horizontal valve bores each containing a balancedtype slide valve for controlling the ow of hydraulic pressure to the various hydraulic devices. The pump 30 is herein oi' the variable displacement triple rotor type of a conventional design and is provided with usual variable displacement control valves for regulating the pressure in the fluid system. The discharge side oi' the pump Il is connected through a conduit |28 to the supply passage of the valve box |21. while the discharge passages of the valve box are connected through branched conduits |28, |28 to a conduit |30 leading to the tank |28. Conduits connect the various hydraulic cylinders 3|, 32, 33, 34 and 35 and the truck drive clutch control means and the truck wheel brake cylinder with the valve box |21, .and as previously mentioned this valve box contains slide valves for controlling the flow of hydraulic pressure throughthese conduits to the Various hydraulic devices. As these various conduits and the particular slide valve structure are clearly described in the above mentioned Joy application, further description thereof is herein considered unnecessary other than to state that the turntable 5 may be rotated, the arm structure 8 swung vertically. the revolving head 8 rotated and the cutter support tilted to vary the position of the cutter bar and for swinging the cutter bar during the cutting operation. This valve structure also controls the flow of liquid ypressure to the hydraulic cutter head locli 35 and the cylinders of the truck drive control clutches and the truck wheel brake. The supply conduit |28 has a conduit |3| connectedthereto, and this conduit |3| is conneotible through a manual control valve |32, located at the rear end of the truck frame, to a conduit |33 communicating with the tubing 58 of the expansible coal breaking means. .The valve |32 is connected by a conduit |34 back to the tank |28 so that when the valve |32 is in a position to cut off the iiow of hydraulic pressure through the conduit |3I to the conduit |33, the latter may be connected back to the tank through the conduit |34.

The general mode of operation of the improved coal cutting and dislodging apparatus is as follows: 'I'he apparatus may be propelled .along the mine trackway at either a relatively high transport speed or a relatively low speed suitable for cutting, in a manner clearly detween the vertical kerls.

with the apparatus'in the position shown diagrammatically in Fig. 21, the turntable l, arm structure I, revolving head l and cutter support Il may be adjusted to move the kerl cutter I2 in any desired location`with respect to the working lace and either rib. When the kerl cutter is suitably positioned it may be sumped in, swung arcuately in its plane and withdrawn lrom the coal. in a well known manner to lorm a plane kerl in the coal. In Figs. to 21, a horizontal plane kerl at the level ol the mine door is indicatedat A. When the cut in the coal is completed, the arm structure and cutter support may be-swung to position thekerl cutter near the rool level and thereafter" theA kerl cutter may be sumped in an endwise direction into the coal as indicated at B in Figs. 15 and 21. The hydraulic pump ol the hydraulic iluid system may then be operated to supply iiuid under pressure, under the control ol the valve |32, to the kerl cutter to act on the hydraulic plungers 53 carried by the kerl cutter to apply a powerful coal breaking torce, substantially along the length ol the cutting portion ol'the kerl cutter and in planes the plane ol the kerl cutter, to the coal above the horizontal kerl A to dislodge the 'coal lrom the coal seam. To complete the breaking down olthe coal, the kerl ,w cutter may thereafter be inserted in an endwise direction into the coal successively into the positions indicated at C and D in Fig. 15 and a coal breaking pressure applied to the coal. when the kerl cutter is so positioned, to break down com pletely the undercut coal lrom the coal lace.'In Fig. 16 a vertical kerl E is cut in the coal lace midway between the ribs in planes perpendicular to the horizontal kerl A. The .kerl cutter is then sumped in an endwise direction into the coal to the positionindicated at F' in Fig.4 16, and a coal breaking pressure applied to the coal to break down the latter between the right hand rib and the vertical kerl E. 'I'herealter the kerl cutter is positioned at G in Fig. 16 to break down the coal between the lelt hand rib and the vertical kerl E. In Fig. 17, parallel vertical kerls H and I are cut-at the ribs perpendicular to the horizontal kerl A, and the kerl cutter is inserted in positions J and K to break down the coal be- In Fig. 18 parallel' vertical kerls L and M are cut in the coal lace in spaced relation .between the ribs, and the kerl cutter is thereafter moved successively into the positions N, O andv P to break down the coal between the ribs and between the vertical kerls. In Fig. 19 a horizontal kerl is cut at Q at the roof level and the parallel horizontal kerls A and Q are intersected by parallel vertical kerls R and .S and thereafter the kerl cutter is moved successively to the positions indicated at T, U and Y to break down the block ol coal between the parallel vertical kerls and the coal between the vertical kerls and the ribs. In Fig. 20 the horlzontal kerls A and Q are cut at the iloor and roof levels and the parallel kerls R and S are inserted in the coal lace in planes perpendicular to the parallel horizontal kerls, and in addition, vertical'kerfs W and X are cut at the ribs, thereby to divide the coal lace into blocks. 'Ihe kerl cutter, as shown in Fig. 19, is then moved into the kerl Q successively to the positions indicated at T, U and V to break down the blocks ol coal. It will be evident that in Figs. 18, 19 and 20 the kerl cutter may be inserted in the vertical kerls to apply a lateral breaking pressure to the coal and that by the provision ol the adjustable supv porting structure lor the kerl cutter a coal breaking pressure inay be applied to the coal at any desired location in the coal lace and in either rib. It .will further be evident that during any ol the kerl cutting operations above described, the expansible breaking means embodied in the kerl cutter may be operated to guldethe kerl cutter during the cutting operation, thereby to prevent binding ol the kerl cutter in the kerl, and further. the expansible breaking means may be utilized to free a stuck kerl cutter.

'As a result ol this invention, it will be noted that an improvedcoal mining apparatus ol the combined cutting and dislodging type is provided whereby the coal in the coal seam may be quickly and expeditiously cut and dislodged, thereby reducing the time consumed in the preparation ol the coal lor the loading machine. It will also be noted that by embodying the improved expansible hydraulic breaker means in the cutter bar ol a coal cutting apparatus ol the type disclosed, it ls possible to utilize the hydraulic liuld system ol the apparatus as a source of power lor the coal breaking means, and as a result the apparatus is greatly simplified. It will further be evident that by embodying the coal breaker means in the cutter bar it is possible to apply v ting portion ol the cutter bar, and further, the d breaker means maybe inserted within openings .in the coal lormed by the cutter bar, thereby eliminating the necessity ol separate hole lorming devices. Other uses and advantages ol the improved coal cutting and dislodglng apparatus wil be clearly apparent to thoseskilled in the ar While there are in this application specifically described one form and several modications which the invention may assume in practice, it will be understood that this lorm and these modliications are shown lor purposes ol illustration and that the invention may be further modied in various other lorms without departing lrom its spirit or the scope ol the appended claims.

What I claim as new and desire to secure by Letters Patent is: v

1. In an apparatus ol the character described, the combination with an elongated narrow kerl cutter carrying cutting elements lor cutting a plane kerl in a coal seam, ol hydraulically operated coal breaking means Vembodied in said kerl cutter including an expansible breaker element extending lengthwise ol the central por` tion ol the kerl cutter substantially along the length of the cutting portion of the kerl cutter, and means lor supplying hydraulic pressure to said expansible breaker element to expand the lattento exert a coal breaking pressure in a direction perpendicular to the plane ol the kerl.

2. In an apparatus ol the character described, the combination with an elongated narrow kerl cutter carrying cutting elements lor cutting a plane kerl in a coal seam, of hydraulically operated coal breaking means embodied in said kerlv cutter including an expanslble breaker element extending lengthwise centrally ol the kerl cutter substantially along the length ol the cutting portion ol the kerl cutter, a. plunger guided on said kerl cutter and actuated by said expansible element, and means for supplying hydraulic pressure to said expansible element to expand the latter to eilect movement of said plunger in a direction transversely ol the kerl cutter forexerting a coal breaking pressure in 10 tion of the latter, and means for supplying hydraulic pressure to said breaker pad,

4. In combination, a kerf cutter having cutting elements for cutting a plane ker! in a coal seam, and expansible breaker means embodied in the kerf cutter including an expansible breaker member of narrow elongated form extending longitudinally of the kerf cutter throughout a substantial portion ofthe length of the latter, for exerting a powerful coal breaking pressure on the coal to break down the latter from the coal seam.

CHARLES F. OSGOOD. 

